IE56865B1

IE56865B1 - Connector apparatus

Info

Publication number: IE56865B1
Application number: IE2178/85A
Authority: IE
Original assignee: Integrated Circuit Systems Ltd
Priority date: 1984-09-06
Filing date: 1985-09-03
Publication date: 1992-01-01
Also published as: CA1252164A; DE3578966D1; DK404785D0; FI853410A0; AU4714585A; FI853410L; DK404785A; EP0174210B1; NO853486L; EP0174210A2; US4669791A; AU579663B2; IE852178L; EP0174210A3

Abstract

A connector apparatus capable of connecting with a complimentary connector (30) for the supply of energy, signals or a commodity has a connector part (4) which can be retracted into the apparatus in response to a control signal to disengage the complimentary connector. The retraction mpvement may be caused by a piston and cylinder arrangement (19,1) or by an electromagnet. The connector arrange- ment has many applications and may be released in response to a variety of circumstances. For example, it may be used in a power supply to a garaged vehicle or grounded aircraft and be arranged to release upon release of the vehicle or aircraft brakes. It may be used in a discharge or filling hose from or to a tanker vehicle and be arranged to release upon starting of the vehicle. It may furthermore be connected in a gas or water supply and be arranged to release in response to a signal from a gas or moisture detector.

Description

This invention relates to connector apparatus.

(I A multitude ot typos of connector are known for use with complementary connectors in order to supplv energy (e.g. electrical, pneumatic or t, hvdraulic), signals (e.g. electrical, pneumatic or hydraulic'' or commodities (e.g. gases, liquids or flowable solids), With many evervdav applications, it is n^c^ssary to disengage readilv the connector apparatus from the complementary connector. Some types ot connector apparatus are adpated to be a push fit into or onto a conplementary connector so that by manual pulling the connector appar/tus ran be disengaged trom the the complementary connector. For j», r « aiiq· Ir λ I lhe r. (»d Of thr eVrhihg il ί S ι ? * Oifttlie hdr >1 to remove the electric plug ol a television receiver from its wall supply socket. Similarly, in cold climates a motor vehicle may be plugged into an energv supply in order to maintain the vehicle engine at a temperature suitable for easy starting as and when a user requires. In order to prevent damage to the vehicle connector, it is important that the vehicle connector is disengaged from the supply of power before a user drives the vehicle away.Aircraft, ·*' whrn on ι hr gioiind ate commonly connected in a ground based electric supply to provide power lor running the aircraft services when its engines are shut down and also to provide power for engine start-up when required.

A similar situation exists for emergency a vehicles which must be kept on standby continuously.

In this case, a number of coapleK cable retraction Ο systems hsv® best! develep^d mvo&d dam&g© $o sh® connector apparatus when a vehicle is driven ®w@y ivithoui she connector apparatus being disconnected £rot-j the source of energy. These co®ples arrangements are both inconvenient and expensive. indeed, the measures to ensure safe di^engagement between a connector apparatus and a complimentary connector can be sufficiently inconvenient to encourage a user to by-pass the arrangement.

There are many other situations where it would be desirable to disconnect a connector in response to certain circumstances in order to avoid damage.

Examples of previously known connectors are to be found in U.K. Patent Specifications Kos: 2136902, 1558329 and 1519855 which disclose connectors having independent disconnection devices none of which would be well suited for a simple power/signal/supply connector.

According to the present invention there is provided a connector apparatus comprising relatively movable first and second connector bodies which are co-axially arranged to supply energy, signals or a commodity from one to the other, the first connector body having first connection means arranged to be connected to complementary connection means of the second connector body, the first connection means being movable between a first position for engagement with the . complementary connection means and a second, retracted, position for disengagement from said complementary connection means, further means being provided responsive to a control signal to move the first connection means from the first position to the second position, the first connector body supporting an axially-extending member which is axially-movable relative to the first connector body, the first connection means being mounted at one end of the member, and the member having an axially-extending internal space for the supply of said energy, signals or commodity to or from the first connection means, characterised in that the member is tubular and in that the connection between the first connection means and » the complementary connection means constitutes the sole interconnection between the first and second connector bodies, and in that the first and second connector bodies have respective axial-movement-restricting portions which, during movement of the first connection means from the first to the second position, abut each other fo restrict movement of the complementary connection means and to thus effect disconnection of the connector bodies.

An advantage of the above apparatus is that the first and second connector bodies fall apart, rather than being fired apart, which could cause injury. A further advantage is that a connector apparatus is provided which can be manually connected and disconnected repeatedly, but which can also be automatically disconnected repeatedly, in response to a control signal. Upon such automatic disengagement, the connector is not damaged, and can immediately be reused.

Preferably, the first connector body has a radially inwardly facing cylindrical surface and the tubular member has a radially outwardly facing cylindrical surface, said surfaces being radially spaced thereby to define an axially-extending annular chamber having an inlet, the confrol-signal-responsive means comprising means connected to the inlet for applying pressure to the chamber the cylindrical surface of the tubular member having a circumferential flange, which extends radially outwardly as far as the cylindrical surface of the first connector body to define a piston, whereby, upon the occurrence of the control signal pressure is applied fo the chamber and the piston by the control-signal-responsive means and the tubular member and the first connection means are moved from the first position to the second position. The apparatus may be used for connecting a vehicle to a supply, the inlet being connected to a compressed air braking system of the vehicle, whereby disconnection is automatically effected upon operation of the vehicle braking system. This has the advantage that disconnection is automatically assured before movement of the vehicle.

Preferably a compression spring is located between the first connector body and the tubular member and exerts an axial force on the tubular member in a direction tending fo move the tubular member and the first connection means from the second position fo the first position.

In another preferred arrangement the controlsignal-responsive means comprises a cylindrical induction coil mounted on the first connector body and surrounding the tubular member, the tubular member comprising magnetisable material thereby fo define an armature, whereby, upon the occurrence of the control signal, a current passes through the coil to exert an axial moving force on the tubular member. The apparatus may be used for connecting a vehicle fo a supply, the coil being connected to an electrical switching system of the vehicle, whereby disconnection is automatically effected upon operation of the vehicle electrical switching system. The electrical switching system may be a vehicle ignition system or an access fo the inferior of the vehicle.

The connection between the first connection means and the complementary connection means constitutes the sole interconnection between the first connector body and the second connector body, the second connector body being otherwise unsupported. Accordingly, upon disconnection of the first and second connection means, the second connector body may fall away from the first connector body solely under the force of gravity.

The apparatus may include at least one electrical * power connection element so that electrical power can be supplied from the first connector body device to the second connector body or vice versa. and/or at least one * signal connector element so that signals can be transmitted from the first connector body to the second connector body or vice versa, and/or at least one flow connector element so that a commodity can be transferred from the first connector body to the second connector body or vice versa.

The apparatus may include sensor means to sense an abnormality in the surroundings related to a commodity supplied to the connection device and lor producing the control signal response thereto. For example, the connector apparatus may be placed in the water supply to a machine such as a domestic washing machine, and the sensor May be arranged to detect water accumulation on the base plate of the machine.

Furthermore the apparatus may be placed in a gas main to a building, ship or caravan and the sensor may be arranged to detect a gas leak.

The apparatus may alternatively or additionally include sensor means to sense excessive stress in cable, hose or the like connected to the apparatus and for producing the control signal in response thereto. Thus the apparatus may be arranged , so that the connector is disconnected before the cable or hose is over-stressed.

The apparatus may alternatively or additionally include sensor means to sense operation of an appliance, vehicle, ship, equipment, or the like, to which the apparatus is connected and for producing the control signal in response thereto.

Thus, the apparatus may be connected, for example, to an essential system of, for example, a tanker vehicle and may disconnect the connection of a re-fuelling hose upon, for example, release of the vehicle.

The apparatus may include means to sense breaking of said connection and to terminate the supply of energy, signals or a commodity.

The apparatus may also include biassing means to return the connector body after disengagement by the control signal responsive means.

Preferred embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings of which: Figure 1 is a longitudinal section of a connector apparatus in accordance with a first embodiment of the present invention; Figure 2 is a similar view to that of Figure 1 of a connector apparatus in accordance with a second embodiment; Figure 3 is s partial perspective view of a connector apparatus in accordance with a third embodiment; Figures 4 to 6 show longitudinal sections of a 5 connector apparatus in accordance with a fourth embodiment at different stages of the disconnection process; Figures 7 and 6 show longitudinal sections of a connector apparatus in accordance with a fifth 10 embodiment at different stages of the disconnection process; Figure 9 shows a longitudinal section of a connector apparatus in accordance with a sixth embodiment; and Figures 10 and 11 show longitudinal sections of a 15 connector apparatus in accordance with a seventh embodiment at different stages of the connection process.

Referring io Figure 1 of the drawings, the < miiien nr apparatus inmprises an enclosure consisting ol a fir't cylinder 1 linked to be coaxiallv aligned with a second cylinder 3 by means of a joining ring 24. The cylinder 1 and 3 are formed to receive an axially aligned tubular piston rod 13. One end of the piston rod 13 is threaded to receive a cable clamp 23 whereas the other end of the piston rod 13 is threaded to receive a connector plug 4, a side view of which is illustrated in Figure 1.

The piston rod 13 is formed to have an outwardly facing flange 19 approximately midway along Us length to act as c piston. The flange 19 acts as a piston. The cylinders 1 and 3 are formed so that the piston 13 can slide between a shoulder 21 in the cylinder 1 and stop ring 15 located in an annular recess 16 formed at the joint between the cylinder 1 and 3, The joint between the cylinder 1 and 3 is sealed by an O-ring 16a. A further shoulder 22 is provided to the left of the shoulder 21 so that a spring 20 mounted to encircle the piston rod 13 urges the rod 13 and piston 19 in the direction ot arrow A.

A travel limiting flange 17 is provided on the piston rod 13 so that movement of the rod 13 in direction A is limited by contact of the flange 17 with the stop ring 15. At this position an annular space 25 remains between piston 19 and stop ring 15.

A port 2 provided in the side of cylinder 1 is connected by a passagewav 26 to the space 25. Thus, JO when sufficient air pressure is applied to port 2 to overturn** the action <»l the spring 20, the piston ι <»*1 13 moves in the direction opposite to arrow A. 0*ring seals 18 and 14 of suitable cross-section asillustrated are provided on either side of the stop ring 15 to seal between the piston rod 13 and the cylinder 3. The connector plug 4 comprises an annular block 12 threaded to the end of tube 13, the block 12 also being threaded on its circumference to receive a tube 10. An insulating block 5 is located within tube 10 by mrans ot screws 27 through the wull of the tube 10 and rear insulation cover 11 is provided between the block 5 and the annular block 12, Four plug pins 6 to 9 are provided within the insulating block in conventional wanner. Wiring passing through the cable damp 23 and the piston rod O and connected to the pins ό to 9 has been omitted SO for the purposes of clarity. Pins 6 and 9 are live and neutral terminals respectively and pins 7 and 3 are earth terminals.

In use, the connector apparatus illustrated is mounted in a vehicle, tor example an aircraft, and port 2 can be connected to a source of compressed air, for example the brake air supply. The connector plug 4 is arranged to protrude from the vehicle side. When the vehicle is not in use no air pressure is applied to port 2. Consequently, the spring 20 urges the piston rod 13 in direction of arrow A so that connector plug 4 protrudes from cylinder 3 to allow connection with a complementary connector socket 30. In this wav, electrical power can he supplied to the vehicle. When the vehicle is mobilised, and the brakes are released, air pressure is applied to port 2 so that the biassing force ot «. 11 r ι np ο i ·» o»»· j* n»i ι hr ρ ι s i on r od ) 3 mo v t· ·. in the direction opposite to arrow A. Consequently, the connector plug 4 retracts into cylinder 3 so that the face 2B of the complementary connector socket engages the end face 29 of cylinder 3 so that the connector \nikei ι-. moved to a position disengageing with connector plug 4. By arranging tor the air supply to port 2 to be connected to an essential system of the vehicle, disengagement of the socketfrom connector plug 4 is assured before movement ot the vehicle.

For example, in a vehicle with air pressure brakes, these must be charged before movement of the vehicle, consequently in the process of charging the brakes the connector plug 4 and connector socket 30 are d ΐ sengaged.

It will be apparent that the supply of air pressure to port 2 can be connected with other systems of the vehicle. Although a piston and cylinder errangment have been illustrated in Figure β π 1, ε person skilled in the art could construct a connector apparatus embodying the invention to incorporate an electromagnet ^rrangment where by actuation of an essential system of the vehicle operates for exaaple, a solenoid to cause disengagement of the connector plug and connector ' socket. The actuation of the solenoid can be linked to the ignition system of the vehicle, a door switch of the vehicle or some other operation indicative of preparation of the vehicle for use. It will also be apparent that although the system illustrated relates to a push fit connector apparatus, a person skilled in the art could, equally construct a connector apparatus embodying the invention relating to a bayonet type plug and socket connector. The pins 7 and 8 illustrated in the figure can be employed as an earth return test loop so that when the connector plug and socket are disengaged the source of energising power is deactivated, It will also be apparent that while the above description refers to the connector apparatus illustrated being located in a vehicle, the connector apparatus could be provided at the end of a lead for connection to a connector socket formed in a vehicle. Such an arrangteent would be particularly suitable to a system where the vehicle is stored in a garage, the supply of air pressure to port 2 being activated in response to, say, opening of the garage dooT. The invention has particular use tor supplying energy to vehicles in cold climates and for supply of energy to emergency vehicles which must be kept at a * suitable standby operating temperature for emergency use.

Referring to Figure 2, there is shown a * 35 similar connector 40 similar to that of Figure 1 but incorporating certain modifications. The connector 40 has a unitary cylindrical housing 42 containing a piston rod and piston assembly 44, 46 ,48. The piston rod 44 is tubular and has a flange 46 at the inner end thereof. A tube SO is screw threaded at $ one end 48 to the flange 46 so that the tube end 48 and flange 46 fors a piston. The piston carries a seal 52 to seal between the piston and the housing, and the housing carries a further seal 54 to seal between the housing and the tube SO. The piston is actuated by hydraulic or pneumatic pressure applied yj_a a port 56 between the seals 52, 54 to move the piston to the left (as seen in the drawing) against the action ot a return spring 58 which extends between the piston flange 46 and an end plate 60.

The end plate is screw threaded into the end of the housing 40 and has a central opening in which the piston rod 44 slides. Other components of the connector identical or similar to corresponmding components ot the embodiment of Figure 1 have been 2? allotted the same reference numerals.

A connector unit 4 is mounted within the tube and may he similar in arrangement to that shown in Figure 1 and described above.

In operation, upon application of pressure vja the port 56, the piston moves to the left, and thus the connector unit 4 and the projecting end 64 of the tube 50 are retracted in to the housing 42. Thus, a complementary connector fitted to the connector unit 4 is disengaged by pressing of the complementary connector against the right-hand end wall of the housing 42.

There follows a description with reference to Figure 3 of another connector apparatus 70.

Pneumatic connectors are known which comprise a male part 72 which fits a female part 74, the female part 74 having a spring loaded collar 76 which when aoved in the direction 3 enables the two parts to be released. It is also known for the sale and/or female parts to be sen-sealing upon release.

As shown in Figure 3, the teal© part 72 is used 5 to replace the piston 48 and its associated components in the arrangement shown in Figure 2, the male part projecting from the end 66 of the housing and being retractable in the direction C upon operation of the apparatus. Upon such retraction, the collar 76 of the female part 74 abuts the end wall 66 of the housing and moves in the direction the end wall 66 of the housing and moves in the direction B relative to the rest of the female part 74 and thus the male and female parts are disengaged.

It will be apparent that many modifications may be made to the three connectors described specifically above whilst still adopting the underlying principal of the invention, that is to say the provision of a connector which can be manually connected and disconnected repeatedly, but which can also be automatically disconnected repeatedly, preferably hy retraction of one of the parts of the connector, in response to a control signal. Upon such automatic disengagement, the connector is not damaged, and can immediately be reused.

Reference is now made to Figures 4 to 6 of the accompanying drawings which illustrate a further connector apparatus generally of the form illustrated in Figure 1 and particularly Figure 2 and like parts have been allotted the same reference numerals. The main differences between the connector of Figures 4 to 6 and that of Figure 2 are that seals 52 and 54 are held in place by air pressure alone and the stop ring on cylinder 42 is oisitted; end plate 60 at the rear end of the cylinder 42 is held ia place by a spring ring 90 docking In a groove 91 in the end of :o the cylinder insteads of being screwed into the end of the cylinder to simplify manufacture of the cylinder 42; an insert collar 92 is mounted in the bore In end plate 60 against which the spring 58 bears; a flange 46 of piston assembly 44 is located in tube 50 by a locking ring 93 engaging in the groove 94 into tube 50 instead of a screw threaded connection again to simply manufacture of the tube 50. Further, insulation cover 11 trapped between the connector plug 4 and the flange 46 is sprung away from the flange by means of compression springs indicated at 95 and a sealing ring 96 is trapped in a groove at the end of the bore in the piston 44 bv the cover 11 to engage the cable 96 extending through the piston rod as shown in Figure 4.

The piston 44 projects through the collar in the end plate 60 at the rear of the cylinder and a cable clamp (not shown) is attached to the projecting end of the piston. Alternatively, the piston 44 may slide telescopically in an encircling sleeve mounted at the end of the cylinder to accommodate the full travel ol thr piston 44 and therehv avoid projection of the piston from the rear end ot the cylinder.

At the forward end of the cylinder 42, the front wall 66 of the housing has a closure cap 96 hinged thereto at 97 to engage over the end of plug 4 when the latter is out of use. When a complementary connector 30 is to be connected to the plug 4 as shown in Figure 4, the end cap 96 is swung to one side revealing the plug 4 and the connection can then he made. Th*· plug 4 is reirected by air pressure against the action of the spring 58 when a control signal is supplied to the source of air pressure to which port 56 is connected extracting the plug connector pins from the complementary connector 30. The connector 30 then falls away as illustrated in Figure 5 and the cap 96 closes over the retracted plug 4. if the connector is re-activated by release of air pressure to the port 56» the spring 58 drives the piston and with it the plug 4 forwardly to the operative position inside the closure cap 96 ready for connection as illustrated in Figure 6 of the accompanying drawings.The arrangement is otherwise the same as that of Figures 1 and 2.

Reference is now made to Figures 7 and 8 of io ihe nr r ompanvinf» drawings whirh illusirate a fluid flow connector ot the form shown diagrammatically in Figure 3 as described above and shown in greater detail in Figures 7 to 9, In this case the outer cylinder 42 has a fixed inner sleeve 100 at its rearward end held in place by a locking member 101 to which a spigot 102 at the end of a receiving conduit or hose 103 is connected.

The male pipe 72 forms a sliding piston within the cylinder 42, the variable chamber of the piston being indicated at 25 and being connected to a source of pressurised air or other gas through port 56. The operative end 72a of the male part 72 projects, in the extended position of the male part, from the end wall 66 to engage in the female part 74 to which a further connector hose is attached (not shown! leading to a supply of fluid under pressure. The female part 74 has a self-sealing valve to be opened autonuiι 11 ji I I y bv the end 7/a of the male pari on insertion ot the latter. The female part 74 is locked to the male part by means of a plurality of halls 104 disposed in sockets 105 in the female part within the collar 76 and which can project from the inner side of the female part to engage recesses 106 disposed around the male part. The arrangement is such that the male part can always withdraw from the female part on application of pressure to the cylinder 25 which drives the halls 104 radially outwardly into the socket in the female part. On the other hand, tension applied to the female part is resisted by the engagement of the balls in the recesses 106 on the sale part to prevent a pull on the female part from disengaging the connection. When it is required to release the connection manually, the collar 76 is moved in the direction B away from wall 66 to release engagement ot the balls 104 in the recesses 106. The socket*; 105 for the halts 104 are so shaped that the balls can move readily both inwardly and outwardly without escaping from the socket.

Retraction of the male part 72 into the cylinder 4? is resisted hy spring 50 acting between I’· an ni'l wull <»f sl'-eyr 100 nhd a tUp shaped mnwbci I I trapped in the male part. A spring loaded valve 111 is mounted in the nozzle of the male part with a seal 112 to bear against a shoulder 113 formed in the male part. The valve is held in the closed position by compression spring 114 acting between the valve and the base of the cup-shaped member 110. When the two components are brought together the self-sealing valve in female part 74 is opened by male part 72a and the resulting pressure on valve 111 lifts the valve from its seat establishing flow through the male part as indicated by arrow D. The sleeve 100 has passageways 115 formed in the base wall of the sleeve through which the fluid flows and the cap 110 has similar passages (not shown) for flow of fluid.

In the event of a signal from the pressure control system to which port 56 is connected causing air or other fluid io be supplied under pressure to cylinder 25, the wale wesber 72 is retracted into cylinder 42 dis-engaging the operative end 72a of the male part from the female connector, ΐη so doing the spigot holding the valve 111 open is released from the valve snd the valve Is closed against its seal by fluid pressure in the sale.part in conjunction with spring 11/ The male part is eventually fully retracted into the cylinder 42 and the female part 74 and drops away as shown in Figure 8 and the self-sealing valve in female part 74 closes am omat ical 1 y.

Figure 9 ot the drawings shows a further form of the apparatus of Figure 7 and 8 except that the piston arrangement tor retracting the male part 72 is not fluid pressure operated but is operated by means ot an induction coil 116 wound around the cylinder 4? and the male part 72 is formed from the magnetisable material to act as an armature to be extended and IS retracted into and out of the cylinder 42 by passage of current one way or the opposite way through the coil 116.

Figures 10 and 11 show a further connector apparatus in which the moving operating member is mounted on the connector and an openable valve is mounted on the complementary connector. The arrangement is similar to those described above and has a piston 44 slidable in cylinder 42. The piston 44 is extended from the cylinder by air pressure in chamber 25 to which port 56 is connected to receive a control signal from control apparatus as described earlier. The piston is extended against resistance of a compression spring 58. Complementary connector 50 has an annular valve member 120 which is engageable *·’’ with a valvr |/| tnimr The central spigot of the complementary connector is formed with & w&isted projection 125 which engages, when the two parts of the connector are brought together, in a socket 126 in the main part of the connector. Socket 126 carries radially inwardly moving balls 127 actuated by a cam surface on an encircling sleeve 128 itself inter-connected to the piston 44 through spring-biassed lost notion connections. The piston 44 has inwardly facing ports 132 at its outer end which are initially closed by an inner sleeve 135. When the piston is extended to engage the complementary connector, the piston 44, sleeve 135 and sleeve 128 all move forward together r< towards ι he < <»ropl*'ιη»·ΐΜ ar v connector. Sleeve 128 then hits element 125 and locks balls 127 into the waisted part of element 125 to lock the components of the connecter together. Piston 44 and sleeve 155 continue to move forward together engaging valve 120 and lifting the latter away from its seat 121. Sleeve 135 engages over and seals with seat 121 as valve 120 disengages from the seat. Piston 44 continues to Infer v.ilvr 1 ? 0 her H in i I s stop 17 4 and at the \dinr time ports 132 become exposed in the cavity of valve body 30 to allow flow of fluid through the connector.

In the event of & pressure signal causing a loss of pressure in chamber 25, piston 44 is immediately allowed to retract into the connector under the influence of the spring 58 closing over sleeve 135 thereby closing ports 132, allowing valve 120 in the compleiii«‘iil .ιι y connector to close and, fitter the lost motion has been taken up, retracting sleeve 128 to release the balls 127 from the waisted part of the projection in the complementary connector and thereby releasing the complementary connector allowing it to separate fro® the connector as shown in Figure 11.

Although the flow through the connector has been described as being from the female to the male part» the arrangement is equally applicable to flow in the opposite direction.

The following is a list, by way of example, of areas ol application tor the connector: aircraft ground power supply units, fuel connectors and other service supplies and monitoring connections; lh-1light drill* hftblr r ψΐ i potent ; space vehicles; emergency vehicles, such as tire tenders, crash rescue vehicles and ambulances; locomotive and road hauliage tankers; shore lines for water craft; oil refinery and chemical works loading areas; private vehicles; mains supplies to domestic and industrial sites and to caravans; and domestic appliances.

Claims

1. A connector apparatus comprising relatively movable first and second connector bodies which are co-axially arranged to supply energy, signals or a commodity from one to the other, the first connector body having first connection means arranged to be connected to complementary connection means of the second connector body, the first connection means being movable between a first position for engagement with the complementary connection means and a second, retracted, position for disengagement from said complementary connection means, further means being provided responsive to a control signal to move the first connection means from the first position to the second position, the first connector body supporting an axially-extending member which is axially-movable relative to the first connector body, the first connection means being mounted at one end of the member, and the member having an axially-extending internal space for the supply of said energy, signals or commodity to or from the first connection means, characterised in that the member is tubular and in that the connection between the first connection means and the complementary connection means constitutes the sole interconnection between the first and second connector bodies, and in that the first and second connector bodies have respective axial-movement-restricting portions which, during movement of the first connection means from the first to the second position, abut each other to restrict movement of the complementary connection means and to thus effect disconnection of the connector bodies.

2. An apparatus according to Claim 1, wherein the first connector body has a radially inwardly facing cylindrical surface and the tubular member has a radially outwardly facing cylindrical surface, said 5 surfaces being radially spaced thereby to define an axially-extending annular chamber having an inlet the control-signal-responsive means comprising means connected to the inlet for applying pressure to the chamber, the cylindrical surface of the tubular member 10 having a circumferential flange which extends radially outwardly as far as the cylindrical surface of the first connector body to define a piston, whereby, upon the occurrence of the control signal, pressure is applied to the chamber and the piston by the control-signal15 responsive means and the tubular member and the first connection means are moved from the first position to the second position.

3. An apparatus according to Claim 2, for connecting a vehicle to a supply, the inlet being 20 connected to a compressed air braking system of the vehicle, whereby disconnection is automatically effected upon operation of the vehicle braking system.

4. An apparatus according to any preceding claim, wherein a compression spring is located between the 25 first connector body and the tubular member and exerts an axial force on the tubular member in a direction tend ing to move the tubular member and the first connection means from the second position fo the first position.

5. An apparatus according to Claim 1, wherein the control-signal-responsive means comprises a cylindrical induction coil mounted on the first connector body and surrounding the tubular member, the tubular member 5 comprising magnetisable material thereby to define an armature, whereby, upon the occurrence of the control signal, a current passes through the coil to exert an axial moving force on the tubular member.

6. An apparatus according to Claim 5 for connecting 10 a vehicle to a supply, the coil being connected to an electrical switching system of the vehicle, whereby disconnection is automatically effected upon operation of the vehicle electrical switching system.

7. An apparatus according to any preceding claim, 15 wherein the abutment portions are constituted by respective annular end faces of the connector bodies which surround the connection means.

8. A connector apparatus according to Claim 1, substantially as hereinbefore described with particular 20 reference to and as illustrated in the accompanying drawings.